RU73973U1 - GAS ANALYSIS DEVICE - Google Patents

Abstract

The utility model relates to the woodworking industry and can be used in devices for testing wood materials or products from them for the emission of volatile substances, in particular, when testing both finished and unfinished wood boards, for example, to determine the emission of formaldehyde from them by the method of gas analysis according to EN 717-2. The technical task of the utility model is to simplify the device, ensure its compactness, reduce its cost and increase sensitivity, and therefore increase the reliability of the readings of the device. The gas analysis device includes a thermally insulated chamber 1 with a jacket 2 mounted in it with a liquid coolant 3, a heater 4, a coolant 3, an air duct 5 for supplying air to the chamber 1, a pipe 6 for exiting the test air, a unit 7 for providing the necessary humidity of the air supplied to the chamber, a meter 13 air flow (rotameter), a system of 14 measuring instruments for the parameters of the medium in the chamber, a block 15 of electrical distribution valves, a block of 16 absorption devices arranged in pairs 17. The device is equipped with a control circuit scooter 18, heater 4 is made in the form of a heating element 19 mounted in a jacket 2, the system 14 of the measuring instruments of parameters is equipped with a humidity sensor 21, the pipe 6 for the outlet of the test air is equipped with a throttle 22, while the control controller 18 is connected to the block 15 of the distribution electro-valves, system 14 measuring instruments of the environmental parameters in the chamber is connected with the heating element 19 of the coolant heater 4. Air from the environment is pumped by compressor 8 through a control valve 9 into a container 10 with distilled water for purification, and then into a tank 11 with a desiccant (silica gel, calcium chloride). The flow of purified and dried air is regulated by valve 12 and is controlled (measured) by meter 13 (rotameter). Further, the air flow through the duct 5 passes through the jacket 2 with the heat transfer fluid 3 of the heat-insulated chamber 1. Using the heating element 19, the required temperature in the chamber 1 is maintained. Heated air enters the chamber 1, where it is constantly mixed by the fan 24, and washes the test sample 26 The pressure in the chamber 1 is controlled by a manovacuum meter 23. The temperature and humidity in the chamber 1 are measured by sensors of temperature and humidity, respectively, 20 and 21, and is controlled by turning on or turning off the heating element

19 of the heater 4. Turning on and off the electrovalves of block 15 according to the specified mode is carried out by the control controller 18. Air from the chamber 1 through the throttle 22 of the pipeline 6 and the block 15 of the distribution electrovalves enters into pairs 17 of absorption devices from which the solution is then subjected to chemical analysis. 1 p.

Description

The utility model relates to the woodworking industry and can be used in devices for testing wood materials or products from them for the emission of volatile substances, in particular, when testing both finished and unfinished wood boards, for example, to determine the emission of formaldehyde from them by the method of gas analysis according to EN 717-2.

A known test chamber, including a thermally insulated housing, an air duct for supplying air to the chamber, nodes for providing the necessary humidity and temperature of the air supplied to the chamber, an air flow meter, a device for monitoring environmental parameters in the chamber and a unit for recording parameters of the sample of test air. (RF patent for utility model, N 67717, publ. October 27, 2007).

A disadvantage of the known technical solution is the inability to use it for testing in accordance with EN 717-2. Using a well-known camera, a sanitary-chemical test of wood materials is carried out under conditions simulating operating conditions, namely, at specific parameter values, for example, at a temperature of up to 40 C humidity of 40-50%, while the concentration of formaldehyde or other volatile substances is measured in air surrounding the sample in mg / m ³ .

A known device for testing by a method using gas analysis, comprising a thermally insulated chamber with a jacket with a heat carrier mounted on it along its perimeter, a heat carrier heater, an air supply duct to the chamber, a pipe for the test air to exit, a unit for providing the necessary humidity of the air supplied to the chamber, a meter air flow, a system of measuring instruments for the environmental parameters in the chamber, a block of distribution electrovalves, a block of pairwise located absorption devices s. (Standard EN 717-2 - prototype).

The known device allows you to test according to the method of gas analysis in relation to industrial conditions, for example, at a temperature of 60 ° C and humidity up to 2%, while measuring the concentration of formaldehyde or other volatile substances

2 mg / 1 m ² hour. The disadvantages of the known technical solutions are the bulkiness of the device due to the use of a coolant as a heater, thermostat, lack of compactness, high cost and low accuracy of the data.

The technical task of the utility model is to simplify the device, ensure its compactness, reduce its cost and increase sensitivity, and therefore increase the reliability of the readings of the device.

The problem is achieved in that the gas analysis device, including a thermally insulated chamber with a jacket with a coolant built into it along its perimeter, a coolant heater, an air supply duct to the chamber, a pipeline for the outlet of the test air, a unit for ensuring the necessary humidity of the air supplied to the chamber, a flow meter air, a system of measuring instruments for environmental parameters in the chamber, a block of distribution electrovalves, a block of pairwise located absorption devices, is equipped with with a controller, the coolant heater is made in the form of a heating element mounted in a jacket, the system of measuring devices for the environmental parameters in the chamber is equipped with a humidity sensor, the piping for the outlet of the test air is equipped with a throttle, while the control controller is connected to the block of electrical distribution valves, the system of measuring devices for the environmental parameters in the chamber connected with the heating element of the coolant heater, and devices with m scarlet amount of absorption solution.

The utility model has the following differences from the prototype:

- the device is equipped with a control controller;

- the heat carrier heater is made in the form of a heating element mounted in a jacket;

- the system of measuring devices for environmental parameters in the chamber is equipped with a humidity sensor;

- the pipeline for the exit of the test air is equipped with a throttle;

- the control controller is connected to the block of distribution electrovalves;

- a system of measuring instruments for the environmental parameters in the chamber is connected to the heating element of the coolant heater;

- as absorption devices used devices with a small amount of absorption solution.

This will simplify the device, ensure its compactness, reduce its cost and increase sensitivity, and therefore - increase the reliability of the readings of the device.

No technical solutions were found in the patent information fund we reviewed with the claimed combination of distinctive features.

The utility model is applicable and will be used in industry in 2008.

In FIG. shows a diagram of a gas analysis device.

The gas analysis device includes a heat-insulated chamber 1 with a jacket 2 mounted on its perimeter 2 with a liquid coolant 3, a heater 4, a coolant 3, an air duct 5 for supplying air to the chamber 1, a pipe 6 for exiting the test air, a unit 7 for providing the necessary humidity of the air supplied to the chamber comprising a compressor 8, a control valve 9, a container 10 with water, a container 11 with a desiccant and a fine adjustment valve 12, an air flow meter 13 (rotameter), a system 14 of measuring devices for environmental parameters in the cam Here, block 15 distribution electrovalves, block 16 pairwise located absorption devices 17.

The device is equipped with a control controller 18, the heater 4 coolant 3 is made in the form of a heating element 19 mounted in a jacket 2, the system 14 of measuring devices of the environmental parameters in the chamber contains a temperature sensor 20 and is equipped with a humidity sensor 21, the pipe 6 for the test air outlet is equipped with a choke 22, when this control controller 18 is connected to the block 15 of the distribution of electrovalves, the system 14 of the measuring instruments of the environmental parameters in the chamber is connected to the heating element 19 of the heater 4 heat Sitel 3, and as the absorption device 17 used devices with a small amount of wash solution. The device is also equipped with a manovacuum meter 23 for monitoring the tightness of the insulated chamber 1, which is a prerequisite for the operation of the device according to the gas analysis method. The chamber 1 is also equipped with a fan 24 for internal air circulation and a stand 25 for placing the test sample 26 on it.

The device operates as follows.

Air from the environment is pumped by compressor 8 through a control valve 9 into a container 10 with distilled water for purification, and then into a tank 11 with a desiccant (silica gel, calcium chloride). The flow of purified and dried air is regulated by valve 12 and is controlled (measured) by meter 13 (rotameter). Next, the air flow through the duct 5 passes through the jacket 2 with the heat transfer fluid 3 of the insulated chamber 1. Using the heating element 19, the required temperature in the chamber 1 is maintained.

Heated air enters the chamber 1, where it is constantly mixed with a fan 24, and washes the test sample 26. The pressure in the chamber 1 is monitored by a vacuum gauge 23. The temperature and humidity in the chamber 1 are measured by sensors, respectively, temperature and humidity, respectively 20 and 21, and controlled by turning off the heating element 19 of the heater 4. Turning on and off the solenoid valves of the block 15 in a given mode is carried out by the control controller 18. The air from the chamber 1 through the throttle 22 pipe oestrus 6 and the solenoid switching unit 15 is supplied in stages (according to the method of the study carried out in four stages) in pairs absorption devices 17 from which solution is further subjected to chemical analysis.

It should be noted that the absorbers as a result of their manufacture have different resistance, which is accompanied by fluctuations in air flow from one pair of absorbers to another. The throttle 22 smooths out these fluctuations in air flow, which helps to improve the accuracy of the readings.

It should also be noted that in the claimed technical solution, absorption devices 17 are used with a small volume of flasks, and therefore with a small amount of reagent, which provides an increase in the sensitivity and reliability of the obtained indicators.

Thus, the utility model will simplify the device, ensure its compactness by reconstructing the coolant heater, reduce its cost by reducing the amount of equipment used and the amount of reagent used, and increase sensitivity by installing a throttle in the pipeline to exit the test air and use absorbers with small volume of flasks and with a small amount of reagent, and therefore - to increase the reliability of the readings of the device.

Claims (1)

The gas analysis device, including a thermally insulated chamber with a jacket with a coolant installed in it around its perimeter, a coolant heater, an air duct for supplying air to the chamber, a pipe for the outlet of the test air, a unit for ensuring the necessary humidity of the air supplied to the chamber, an air flow meter, a system of measuring instrument parameters medium in the chamber, block of distribution electrovalves, block of pairwise located absorption devices, characterized in that the device is equipped with a control con a scooter, the coolant heater is made in the form of a heating element mounted in a jacket, the system of measuring instruments for the environmental parameters in the chamber is equipped with a humidity sensor, the pipeline for the outlet of the test air is equipped with a throttle, while the control controller is connected to the block of electrical distribution valves, the system of measuring instruments for the environmental parameters in the chamber is connected with a heating element of the coolant heater, and devices with a small amount of water absorption solution.